KR101983028B1 - a metal credit card of hybrid material way and manufacturing method metal credit card of hybrid material way - Google Patents

Abstract

The present invention relates to a method of manufacturing a metal card made of a hybrid material having a metal plate joined to an aluminum plate made of a nonferrous metal. More particularly, the present invention relates to an aluminum plate having excellent metallic luster and high decorative property, The present invention relates to a high-quality and high-performance metal card which can feel a high-quality appearance and feel a weight of a metal card.
A feature of the present invention is that the bottom surface of a non-ferrous metal plate 11 is polished with aluminum oxide or roughened by a sand blast method to form an oxide treatment layer 12 ); The upper surface of a metal plate 14 made of any one of stainless steel, copper and titanium is polished with aluminum oxide or roughened by a sand blast method Forming an oxide treatment layer (12); A step of completing the card body 10 by placing the hot melt adhesive 13 between the aluminum plate material 11 and the oxide treatment layers 12 of the metal plate material 14 and heating and pressing the same and laminating ; A step of milling a surface of the aluminum plate 11 to form a shallow guide groove 21 and then inserting an IC chip 20 into the guide groove 21 and attaching the IC chip 20 with an adhesive; And cutting the metal sheet material of the hybrid material having the aluminum sheet material (11) and the metal sheet material (14) joined to each other along the outer shape of the card while CNC processing the metal sheet material to complete the metal card Can be achieved by a manufacturing method.

Description

[0001] METHOD FOR MANUFACTURING HYBRID MATERIAL METAL CARD [0002]

The present invention relates to a method of manufacturing a metal card made of a hybrid material having a metal plate joined to an aluminum plate made of a nonferrous metal. More particularly, the present invention relates to an aluminum plate having excellent metallic luster and high decorative property, The present invention relates to a high-quality and high-performance metal card which can feel a high-quality appearance and feel a weight of a metal card.

In general, credit cards can be used in place of cash, and in recent years, smart cards with integrated IC chips capable of storing large amounts of information have been developed and actively utilized as clinic cards and various member cards.

Among them, differentiated metal credit cards have been developed for VIP customers, and metal cards have been provided to special customers by implementing a high-quality credit card with metallic luster.

However, since the conventional metal cards are manufactured by using a thin metal sheet or by thinly coating the metal powder, it is difficult to form a pattern and characters on the surface of the metal card, the metal texture can not be felt, It was made of a light material and could not feel the weight feeling of metal.

Therefore, a proposal of a metal credit card capable of feeling the weight and texture of a metal card made of a metal plate has been urgently required.

In the related art, a registration method for a metal thin card (Prior Art 1) and a method for manufacturing a metal card (Prior Art 2) have been proposed in Japanese Patent Application Laid-Open No. 20-0382725 (Prior Art 1) and 10-2013-0051906.

In the prior art 1 , a metal thin film having a size smaller than that of the core sheet is attached to upper and lower portions of the synthetic resin core sheet, margins are formed around the core sheet, antenna coils are installed along the periphery of the upper surface of the core sheet, Wherein a top coated paper having a print layer formed thereon is attached to an upper portion of the core sheet and a lower coated paper having a print layer formed on a lower surface of the core sheet is thermally adhered in a stacked state, It is a thin plastic card.

The prior art 2 is a method of manufacturing a metal card including a plastic sheet composite and a metal thin film composite including an inlay sheet on which an antenna is formed, wherein the step of fabricating the metal thin film composite includes forming a resin layer on one surface of the base film ; And forming a metal thin film having a thickness of 200 to 1,000 angstroms on the surface of the resin layer by a sputtering deposition method.

However, the prior art 1 is a technique in which a thin foil-shaped metal thin film having a thickness of about 0.02 to 0.1 mm is formed. In the prior art 2 , a thin metal thin film of micron unit is formed by the stir- Because of the technology, we could not feel the heavy feeling of the metal material. Therefore, the texture and the weight of the metal card could not be realized only after the pattern was expressed only by the metal.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and its object is to provide a metal card of a hybrid material capable of realizing a high quality and high quality that can feel the weight of a metal card while an aluminum plate and a metal plate are combined, And a metal card of a hybrid material.

In order to achieve the above object, a feature of the present invention is to provide a hot melt adhesive (10) between an aluminum plate (11), which is a nonferrous metal, and a metal plate (14), which is made of any one of stainless steel, copper (13) is placed on the card body (10), and laminating is performed by heating and pressing to complete the card body (10); A step of milling a surface of the aluminum plate 11 to form a shallow guide groove 21 and then inserting an IC chip 20 into the guide groove 21 and attaching the IC chip 20 with an adhesive; And cutting the metal sheet material of the hybrid material having the aluminum sheet material (11) and the metal sheet material (14) joined to each other along the outer shape of the card while CNC processing the metal sheet material to complete the metal card In the manufacturing method, the bottom surface of the aluminum plate 11 is polished with aluminum oxide or roughened by a sand blast method to form an oxide treatment layer 12; And a step of roughening the upper surface of the metal plate 14 by aluminum oxide or by sand blasting to form the oxide treatment layer 12, The method of manufacturing a metal card of a hybrid material according to claim 1, further comprising a step of coating a two-component urethane coating on the outer surface of the card body (10) and then curing the coating, so that the surface of the metal card It can be achieved by.

The hybrid metal card of the present invention completed by the manufacturing process described above has no foreign matter generated on the bonding surface by the oxide treatment layer 12 formed on the aluminum plate 11 and the metal plate 14, Since the high coarse structure, the hot-melt adhesive 13 is very firmly adhered, so that the two metal plate materials having a heterogeneous property are adhered very firmly to prevent closure such as detachment even if the card is used for a long period of time, (11) is characterized by a non-ferrous metal, the metal luster is excellent, the appearance is good and the decorative property can be enhanced, and the metal plate combined with the bottom can provide durability and feel the weight of the metal card. It is possible to provide a metal card of a high-quality hybrid material that can be used.

1 is an exploded perspective view of a hybrid metal card according to the present invention,
2 is a perspective view of a hybrid metal card completed by the manufacturing process of the present invention,
FIGS. 3A to 3E are cross-sectional views illustrating a manufacturing process of a hybrid metal card according to an embodiment of the present invention; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example

A step of polishing the bottom surface of the aluminum plate material 11 made of a nonferrous metal with aluminum oxide or roughening the surface with a sand blast technique to form the oxide treatment layer 12 Respectively.

The aluminum oxide used in the above step was alumina produced by heating and pressurizing bauxite at a high temperature in an electric kiln. Chemical components thereof were 99.7 wt% of aluminum oxide (Al ₂ O ₃ ), sodium oxide (Na ₂ O ₃ ), 0.03% by weight of iron oxide (Fe ₂ O ₃ ), and 0.02% by weight of silicon oxide (Sio ₂ ), and the characteristics thereof are excellent because of high strength, heat resistance, chemical resistance and high toughness In the present invention, aluminum oxide is sprayed by a sand blast method to form a lower part of the aluminum plate 11, Lt; / RTI >

Then, the upper surface of the metal plate 14 is polished with aluminum oxide or the upper surface of the metal plate is roughened by a sand blast method to form the oxide treatment layer 12 Respectively.

The metal plate material 14 used in the present invention is selected from stainless steel, copper and titanium. However, it is possible to use the alloys of the above materials, It is preferable to use a material.

A hot melt adhesive 13 is then placed between the aluminum plate material 11 and the oxide treatment layers 12 of the metal plate material 14 to perform a laminating step of heating and pressing Thereby completing the card body 10.

As the hot-melt adhesive, a thermoplastic resin adhesive mainly composed of ethylene-vinyl acetate (EVA), polyamide, polyester, acrylic, etc. was used and an adhesive which rapidly melts when heated and cured is used.

In this step, there is no generation of foreign matter by the oxide treatment layer 12 formed on the aluminum plate 11 and the metal plate 14, and since the coarse structure has a high frictional force, the adhesion of the hot melt adhesive 13 is very strong It is possible to complete the card body 10 and the two metal plate materials having heterogeneity are adhered very firmly to prevent closure such as disconnection even if the card is used for a long period of time.

The surface of the aluminum plate 11 is milled with CNC to form a shallow guide groove 21 having a depth of 0.15 to 0.3 mm and an IC chip 20 is inserted into the guide groove 21 And then adhered with an adhesive.

Next, the card body 10 of the hybrid material in which the aluminum plate 11 and the metal plate 14 are joined is cut along the outer shape of the card while CNC processing is performed to complete the manufacture of the metal card.

In the metal card of the hybrid material of the present invention completed by the above-described manufacturing process, the oxide treatment layer 12 roughly treated with aluminum oxide is formed on the bottom surface of the aluminum plate 11, A hot-melt adhesive 13 is formed between the aluminum plate 11 and the oxide-treated layers 12 of the metal plate 14. The hot- And are thermally adhered to each other.

On the other hand, as shown in Figs. 1 and 2, the surface of the aluminum plate 11 may be further provided with a step of machining a pattern 11a and a character 11b forming a three-dimensional pattern by CNC machining So that the appearance of the card can be formed to be beautiful, and the character information can be displayed. At this time, the characters 11b formed on the surface of the card are preferably subjected to precision processing so as to form various fonts by laser processing.

In some cases, the outer surface of the card body 10 may be coated with a spray coating so that the surface of the metal card is coated with a two-component urethane coating and cured to provide a metal feel while providing a softer feel.

The two-part type (two-part) urethane paint is a type of paint which is cured in a net structure by a cross-linking reaction caused by a mixture of a main agent and a curing agent in the coating material. The crosslinking reaction accelerates at a higher temperature, ° C, and has a fine mesh structure similar to that of a thermosetting paint. Therefore, it is excellent in gloss and excellent in coating performance such as hardness, plasticity, abrasion resistance, chemical resistance and stain resistance, And the like.

In some cases, an anodic oxidation film is formed on the surface of the aluminum plate 11, anodizing treatment is performed, and the dye is colored and then subjected to a heat treatment to obtain a metal plate having good corrosion resistance and abrasion resistance, It is possible to implement a beautiful card with high gloss and high decoration.

The process of anodizing the surface of the aluminum plate 11 is as follows.

First, the aluminum plate material 11 was cleaned and then placed in an electrolytic cell containing an electrolytic solution of sulfuric acid, and an electrolytic process was performed to form an anodic oxide film on the surface of the formed product.

In the electrolysis step, when an electric current flows into an electrolytic cell (electrolytic cell) containing a sulfuric acid solution with the aluminum plate 11 as an anode, oxygen is generated on the surface of the aluminum sheet material by the charge (charge) generated at this time to form a thick oxide film And the anodic oxide film is formed of porous and fibrous materials, so that it is possible not only to penetrate the dye but also to form an oxide film having high electrical insulation property and good corrosion resistance and abrasion resistance.

Next, a dyeing step of applying a color to the anodic oxidation coating formed with a porous material is performed, followed by a drying step of heat-treating the aluminum plate 11, which has been dyed, through a conveyor at a temperature of 60 to 75 ° C Thereby completing the anodizing treatment of the aluminum plate material 11. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes may be made and equivalents may be resorted to without departing from the scope of the appended claims.

10: Card body 11: Aluminum plate
11a: Glyph 11b: Character
12: oxide treatment layer 13: hot melt adhesive
14: metal plate 20: IC chip
21: Guide groove

Claims (5)

A hot melt adhesive 13 is sandwiched between the metal plate members 11 made of a nonferrous metal and one of stainless steel, copper and titanium and made of a material heavier than the aluminum plate member 11, (11), a hot-melt adhesive (13), and a metal plate (14) are successively laminated by performing a laminating step of heating and pressurizing the aluminum plate material ;
A step of milling a surface of the aluminum plate 11 to form a shallow guide groove 21 and then inserting an IC chip 20 into the guide groove 21 and attaching the IC chip 20 with an adhesive;
And cutting the metal sheet material of the hybrid material having the aluminum sheet material (11) and the metal sheet material (14) joined to each other along the outer shape of the card while CNC processing the metal sheet material to complete the metal card In the production method,
A step of polishing the bottom surface of the aluminum plate 11 with aluminum oxide or roughening the surface of the aluminum plate 11 by a sand blast method to form an oxide treatment layer 12; And
The method further comprises the step of polishing the upper surface of the metal plate 14 with aluminum oxide or roughening the surface of the metal plate 14 by a sand blast method to form the oxide treatment layer 12,
The method of manufacturing a metal card of a hybrid material according to claim 1, further comprising a step of coating a two-component urethane paint on the outer surface of the card body (10) and then curing the surface of the card body . delete delete delete delete

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